This is the Simple 50 watt 12 VDC to 220 VAC Power Inverter. Power
inverter (UPS Uninterruptible power supply) is a very useful device
which can convert Low voltage from a DC source to high voltage AC. The
most common power inverter is 12V to 240V inverter. Perhaps that is
because 12V batteries are common. This type of power inverter usually
draws current from a DC battery. This battery should be able to provide a
high flow of electric current.
Normally lead acid batteries can server this purpose well. This current
is then converted to 240V square wave alternative current so that we may
empower those electric appliances which work on 240V instead of 12V.
Inverter falls in the category of expensive devices so many people don’t
buy them even they need them. What if I tell you how to build an
inverter (UPS Uninterruptible power supply) yourself?
Iverter circuit diagram
Parts.
Transformer 12+12/220 (50W) ( you can make your own inverter transformer
visit Make your own homemade (DIY) Electric Transformer)
2, metter copper wire (for winding)
2 Transistors 1047
2 Heat sinks to fit power transistors
Some wiring wire (for connections)
A wiro-board (To build circuit on)
A 12V battery of 12V power supply for testing purposes
1 Resisters 1 k
Method:
First of all you have to make some changes in transformer. If u are
using 500 V transformer then take 18 to 22 gauge copper wire and on the
one side of transformer’s core make five turn and put a point on it, and
turn this point, and again turn the wire five times on the same
direction. In this way u get three terminals. If u r connect the
transformer to 220 V power supply then it gives 1.5 V on both terminals.
Now put transformer D1047 on the palm of your hand and turn it such a
way that number appears your way. Now you will see three points. The
point on your left side is known as (B) Base, middle one is E and the
right one is collector(C). (These are the information only for D1047)
connect the E of both sides of transistors with the outer terminal of
secondary coil, after that connect the both outer terminals of the third
coil with the base of the both heat sinks of transistor. then connect
the collectors of both side by wires n then connect the 500 ohm resistor
on emitter and resistor on either side. Now connect the middle terminal
of primary coil by one to two ft long wire and clip (crocodile) it and
attach this terminal always by the positive terminal, and with the
negative terminal of battery connect the both collectors of transistor.
After that the central point of the third coil and a wire attach it with
emitter to connect using a heavy ampere switch between both terminals
of the Inverter primary coil to apply a capacitor which will prevent the
current from the sparking. inverter will switch on as soon as starting
to work.
Working:
With both the terminals of battery connect the positive and negative
wires to its terminals positive to positive and negative to negative and
then open the switch, slightly vibration starts in the inverter as
switch is open. Now you can run it into 1 to 500 watt load.
This inverter also can charge the batteries, you just need to( on and off) the switch.
Charging:
You will need to switch off for battery charging and connect the primary
coil indirectly with 220 V of power supply, after that battery will
start charging. To converts it into UPS you needs only one relay. These
relays are AC 220 V and 4.4 terminals.
For online help visitPak Science and technology Forum
Inverter circuit diagram for battery charging :
Inverter circuit diagram for Inverter operation :
Sourced By: circuitsdiagram-lab.blogspot.com
Power Inverter Wattage Chart
inverters | Transformer voltages (Input) |
Transformer Amps | Transformer watt | No of Transistors D1047 |
50 watt inverter | 12 V | 4 A | 50 W | 2 |
100 watt inverter | 12 V | 10 A | 100 W | 4 to 6 |
300 watt inverter | 12 V | 25 A | 300 W | 6 to 8 |
500 watt inverter | 12 V | 40 A | 500 W | 8 to 10 |
1000 watt inverter | 24 V | 45 A | 1000 W | 20 to 26 |
3000 watt inverter | 24 V | 125 A | 3000 W | 40 to 50 |
5000 watt inverter | 48 V | 105 A | 5000 W | 60 to 70 |
Note. table shows that requirement of D1047 transistors for different power inverter wattage |
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